Jump to content

Talk:Quantum computing: Difference between revisions

Page contents not supported in other languages.
From Wikipedia, the free encyclopedia
Browse history interactively
← Previous edit
Content deleted Content added
VisualWikitext
Orahmel (talk | contribs)
31 edits
Update Technology and Culture assignment details
 
(246 intermediate revisions by more than 100 users not shown)
Line 1: Line 1:
{{talk header|search=yes}}
{{Talk header}}
{{American English}}
{{ArticleHistory
{{Article history
|action1=RBP
|action1=RBP
|action1date=12:29, 19 January 2004
|action1date=12:29, 19 January 2004
Line 21: Line 22:
|currentstatus=FFA
|currentstatus=FFA
}}
}}
{{WikiProject banner shell|class=B|vital=yes|1=
{{WikiProjectBannerShell|1=
{{WikiProject Computing|class=B|importance=High
{{WikiProject Computing|importance=Top|science=yes|science-importance=Top}}
|science=yes|science-importance=High}}
{{WikiProject Physics|importance=Top}}
{{WikiProject Technology}}
{{physics|class=B|importance=mid}}
{{WikiProject Technology|class=B
{{WikiProject Mathematics|priority=mid}}
{{WikiProject Computer science|importance=High}}
}}
{{Split article|from=Quantum computing|from_oldid=1163589306|to=List of proposed quantum registers}}
{{Connected contributor (paid)|User1=Inkian Jason|U1-employer=Beutler Ink|U1-client=Intel via Interfuse Communications}}


| b1 <!--Referencing & citations--> = yes
| b2 <!--Coverage & accuracy --> = yes
| b3 <!--Structure --> = yes
| b4 <!--Grammar & style --> = yes
| b5 <!--Supporting materials --> = yes
| b6 <!--Accessibility --> = yes

}}
{{maths rating|frequentlyviewed=yes|class=B|priority=Mid|field=discrete}}
{{WP1.0|v0.5=pass|class=B|category=Engtech|importance=Mid}}
}}
{{auto archiving notice|bot=MiszaBot I|age=30|dounreplied=yes}}
{{User:HBC Archive Indexerbot/OptIn
{{User:HBC Archive Indexerbot/OptIn
|target=Talk:Quantum computer/Archive index
|target=Talk:Quantum computing/Archive index
|mask=Talk:Quantum computer/Archive <#>
|mask=Talk:Quantum computing/Archive <#>
|leading_zeros=0
|leading_zeros=0
|indexhere=yes}}
|indexhere=yes}}
Line 47: Line 40:
|archiveheader = {{aan}}
|archiveheader = {{aan}}
|maxarchivesize = 200K
|maxarchivesize = 200K
|counter = 1
|counter = 2
|minthreadsleft = 5
|minthreadsleft = 5
|minthreadstoarchive = 1
|minthreadstoarchive = 1
|algo = old(30d)
|algo = old(30d)
|archive = Talk:Quantum computer/Archive %(counter)d
|archive = Talk:Quantum computing/Archive %(counter)d
}}
}}


== Lead too long ==
== Contradictory statements regarding space? ==

The introduction suggests that simulating an n-bit quantum computer on a classical TM requires 2^n discrete states. But doesn't this contradict the later statement that QBP is a subset of PSPACE? ([[User:Erniecohen|Erniecohen]] ([[User talk:Erniecohen|talk]]) 15:50, 14 October 2012 (UTC))
:It's just an example of how a classical computer could simulate a quantum computer. It doesn't mean that it's the only way to do so. --[[User:RobinK|Robin]] ([[User talk:RobinK|talk]]) 15:55, 14 October 2012 (UTC)
::The problem is that the way that it is written, it strongly implies that quantum computing provides a space advantage, which is just false, so the 2^500 crap should just be removed. The relevant connection between the models is just that a classical TM can simulate a quantum computer with a polynomial blowup in space, but is strongly believed to require an exponential blowup in time. <small><span class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[User:Erniecohen|Erniecohen]] ([[User talk:Erniecohen|talk]] • [[Special:Contributions/Erniecohen|contribs]]) 16:04, 14 October 2012 (UTC)</span></small><!-- Template:Unsigned --> <!--Autosigned by SineBot-->
:::I wasn't aware of this. Do you have a reference? [[User:Skippydo|Skippydo]] ([[User talk:Skippydo|talk]]) 19:27, 14 October 2012 (UTC)

Has this been resolved? It seems odd to me in any case to say that 2<sup>500</sup> complex values is equivalent to 2<sup>501</sup> bits (does this mean that there are only four complex values available)? [[User:W. P. Uzer|W. P. Uzer]] ([[User talk:W. P. Uzer|talk]]) 12:27, 2 February 2014 (UTC)
:Given these two objections, I've commented out the sentence in question for the moment. [[User:W. P. Uzer|W. P. Uzer]] ([[User talk:W. P. Uzer|talk]]) 08:50, 4 February 2014 (UTC)

== How does it work... really! ==

It seems like this article would benefit from explaining how quantum computers work physically. I assume they manipulate individual atoms, but how?

:Comment so that archiving will work. (Answer already in article.) — [[User:Arthur Rubin|Arthur Rubin]] [[User talk:Arthur Rubin|(talk)]] 12:28, 31 May 2015 (UTC)

: and where is the critique section of this article? <small class="autosigned">—&nbsp;Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/75.163.218.83|75.163.218.83]] ([[User talk:75.163.218.83|talk]]) 05:12, 4 September 2015 (UTC)</small><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->

== Announcing new results ==

:/(
"..(-2,334)‎ . .(Sorry, Wikipedia is not the place to announce new results. See WP:OR) .." - and wghere, WHERE is such place, for new ideas, announcing and discuss them, developing them more, and .."brainstorming",maybe ?, or just constructive discussion..
yap, according that "WP:OR" document, if we all would strictly managed by it, it would be means, - all advancing, all scientific and technical development would be almost stopped, in fact.. bcos no one would know about any new ideas, new results, new.. anything.. :/(
:\( <small><span class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[User:Martin Hovorka|Martin Hovorka]] ([[User talk:Martin Hovorka|talk]] • [[Special:Contributions/Martin Hovorka|contribs]]) 19:30, 2 September 2013 (UTC)</span></small><!-- Template:Unsigned --> <!--Autosigned by SineBot-->

=== deleting of new idea announcing ===

:/(
hmm...
not even just announce,a bit, any new idea (imho quite promising, relevant, and ..perspective.., this my multi-Sieves/Sifthering Q.C. Idea)
..even nor get,make a little advertisement,and spreading-out, for this new,constructive,fresh-brigth concept.. :\(
(..but it is, and always was, my idea, trying make Q.Computing with this concept of sieve, /sifter approach,/concept(sieving) <small><span class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[User:Martin Hovorka|Martin Hovorka]] ([[User talk:Martin Hovorka|talk]] • [[Special:Contributions/Martin Hovorka|contribs]]) 20:57, 2 September 2013 (UTC)</span></small><!-- Template:Unsigned --> <!--Autosigned by SineBot-->
:It's your fault for announcing the idea here. Doesn't everyone know by now that, if you want to patent an invention, you must do so within one year of publication. Under the new US patent law, publication ''may'' make it impossible to patent it at all. (And, yes, posting it on Wikipedia constitutes "publication".) — [[User:Arthur Rubin|Arthur Rubin]] [[User talk:Arthur Rubin|(talk)]] 21:07, 2 September 2013 (UTC)

=== other wiki for discussing quantum ideas ===

There is a common misconception that people who support the [[WP:OR]] policy are people who don't want to see any original research on any wiki.

Actually, some of us *do* want to see original research on a wiki -- but on an appropriate wiki where such research is on-topic, not just any random wiki.

There are over 10,000 English-language wiki. Pretty much any topic you can think of is on-topic at at least one of them.
In particular, quantum computing seems to be on topic at several wiki including
http://quantiki.org/ ,
[[Wikia: 3dids]],
http://quantum.cs.washington.edu/ ,
http://wiki.qcraft.org/ ,
http://c2.com/cgi/wiki?QuantumComputing ,
http://twoqubits.wikidot.com/ ,
http://chemwiki.ucdavis.edu/Physical_Chemistry/Quantum_Mechanics ,
http://www.physics.thetangentbundle.net/wiki/Quantum_mechanics ,
etc.

--[[User:DavidCary|DavidCary]] ([[User talk:DavidCary|talk]]) 04:30, 15 January 2014 (UTC)

== Quantum supercomputer ==

Is it really the case that a quantum computer is "also known as a quantum supercomputer"? I've never seen that usage before & suspect it should be deleted. --[[Special:Contributions/24.12.205.104|24.12.205.104]] ([[User talk:24.12.205.104|talk]]) 00:48, 6 January 2014 (UTC)

==how can a quantum computer create:==
there is a requirement for a new index system
there is not any part of quantum that will give 0 zero nothing a value
my understanding is quantum is the least amount of energy required to create change within a structure of mass. E=Mc2.
no structure of Energy or mass within any environment can change unless another structure of energy or mass has the ability to influence or interact with that unit of structure. 0 zero nothing does not have the ability to interact.
relativity and quantum will only reconcile when relativity recognizes 0 zero nothing has no potential to exist or create.
lets look at the potential of a quantum computer.
0 and 1 cannot create a interaction of change .
why.
1 has a value and therefore has a potential structure
0 within classical mechanics will only ever have no structure and therefore cannot interact
therefore.
only value 0 or 1 or any other quantity of 0 or 1,s can represent is a unique value.
for quantum to create a computer language o zero nothing cannot be a partner,
The singularity of 0 zero nothing will never evaluate change or interaction.
compound mathematics or very basic energy/mass interaction.
even a higgs boson is a unit of energy that has an exact mass value as the potential of a velocity to transport at the speed of light for a period time it environment allows.Cubedmass 01:22, 26 January 2014 (UTC) <small><span class="autosigned">—&nbsp;Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[User:Cubedmass|Cubedmass]] ([[User talk:Cubedmass|talk]] • [[Special:Contributions/Cubedmass|contribs]]) </span></small><!-- Template:Unsigned --> <!--Autosigned by SineBot-->
:{{U|Cubedmass}}: ?? — [[User:Arthur Rubin|Arthur Rubin]] [[User talk:Arthur Rubin|(talk)]] 19:12, 2 February 2014 (UTC)

== misc suggestions / solving chess - programming the universe - more intuitive intro ==

I think it would be great if the article mentioned [[solving chess]] as something that quantum computing would allow.

I also think Seth Lloyd's book "Programming the Universe" should be referenced somewhere.

The first sentence I think is too technical. It tells precisely what the term means in physics, it doesn't give any layman sense as to what quantum computing is. It almost sounds like: "Quantum computing is a process where computers use quantum systems to do computing". A layman will want to know something basic immediately like the fact that quantum computers are extremely fast and will soon be replacing standard computers.

...My 2 cents. [[User:Squish7|Squish7]] ([[User talk:Squish7|talk]]) 00:40, 26 March 2014 (UTC)

== Page title should be "Quantum computing" ==


To my sensibility, this page title is all wrong, or maybe not entirely - simply we have to create a more general page about more "general aspects and applications of quantum computing" like some quantum transistors that work partially as "quantum computers" but are cheaper to produce.

: ''Computer science is no more about computers than astronomy is about telescopes.'' &mdash; [[Edsger Dijkstra]]

Additionally, Google
"quantum computing" -"quantum computer"
gives 2,440,000 results
-"quantum computing" "quantum computer"
gives 961,000 results, so one appears without the other significantly more often. &mdash; [[user:MaxEnt|MaxEnt]] 05:10, 5 May 2014 (UTC)

: {{done}} —''[[User:Ruud Koot|Ruud]]'' 18:01, 21 December 2014 (UTC)

== Quantum games ==

A collection of IPs is adding an announcement of "the first quantum computer game". Even if this were sourced to a reliable source (it's not at all in the reference specified, which is a blog [not even a blog entry], and all I can find is a blog entry pointing to the announcement by the creator), would it be appropriate for the article? — [[User:Arthur Rubin|Arthur Rubin]] [[User talk:Arthur Rubin|(talk)]] 05:49, 21 May 2014 (UTC)
:The announcement by the <u>alleged</u> creator is not a [[WP:RS|reliable source]], either. — [[User:Arthur Rubin|Arthur Rubin]] [[User talk:Arthur Rubin|(talk)]] 10:39, 24 May 2014 (UTC)

== strongly need th consider of change the title of this wiki-page from Q. "Computer" to "COMPUTING" ==

can be title of whole wiki-page re-turned to be Quantum COMPUTING, as it was before ? as "Computing" is far more fitting, more overal term for this wiki page´ topic, as just 1 concrete THE "computer") <span style="font-size: smaller;" class="autosigned">— Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/78.99.236.255|78.99.236.255]] ([[User talk:78.99.236.255|talk]]) 17:49, 23 July 2014 (UTC)</span><!-- Template:Unsigned IP --> <!--Autosigned by SineBot-->

:{{done}} —''[[User:Ruud Koot|Ruud]]'' 18:01, 21 December 2014 (UTC)


The lead on this article is too long. To be more readable to a wider audience, it should be shorter.
== Invented When? ==


I caution anyone against putting a simple "lead too long" template on the article (Template:Lead too long), because it will show the message at the top of the article to all readers, whether or not they have the ability or desire to change the article. However, here on the talk page this message may be more signal and less noise.
You should discuss when Quantum computing was invented and the purpose of Quantum Computing at the time.
[[Special:Contributions/96.227.223.203|96.227.223.203]] ([[User talk:96.227.223.203|talk]]) 02:28, 31 August 2023 (UTC)


== Expression "exponentially faster" etc makes no sense! ==
[[Special:Contributions/2601:C:5600:27B:C92A:EEBE:6758:C647|2601:C:5600:27B:C92A:EEBE:6758:C647]] ([[User talk:2601:C:5600:27B:C92A:EEBE:6758:C647|talk]]) 17:52, 18 January 2015 (UTC)Johnnie DeHuff
:The basic idea occurred as early as 1965, in ''[[Feynman Lectures on Physics]]'',vol. 3 when Feynman mentioned that it was frequently faster to do the physical experiment than to do the mathematical computation. In other words, use a physics experiment as an analog computer. --[[User:Ancheta Wis|Ancheta Wis]] [[User talk:Ancheta Wis| &nbsp; (talk]] [[Special:Contributions/Ancheta Wis| &#124; contribs)]] 17:56, 1 February 2015 (UTC)


I have corrected the wrongful use of the word "exponentially" in a couple of places where it was simply meant as an equivalent to "a lot". I am aware of this trend where "exponentially" has become a buzzword. But.. The word "exponential" is a well defined mathematical term (see article [[Exponential growth]]). Seeing expressions such as "expeonentially faster" etc in cheap tv-movies is one thing that one may shake one's head at and shrug. But, not least for reasons of clarity, I don't think this kind of buzzwording should occur in a technical Wikipedia article.
== Minthreadsleft ==


- [[User:RP Nielsen|RP Nielsen]] ([[User talk:RP Nielsen|talk]]) 13:02, 2 November 2023 (UTC)
Why is it 10? If we're going to archive, 5, or possibly 2, would be better. I already archived one thread which was (potentially) about the subject, rather than about the article. — [[User:Arthur Rubin|Arthur Rubin]] [[User talk:Arthur Rubin|(talk)]] 22:52, 4 May 2015 (UTC)
::I support your change as an improvement. But "exponentially" does have a legit common meaning as "a very lot" in addition to it's mathematical meaning. Sincerely, <b style="color: #0000cc;">''North8000''</b> ([[User talk:North8000#top|talk]]) 14:26, 2 November 2023 (UTC)
:Changed to 5. I also "archived" 3 sections about alleged simulators of quantum computers, with no credible source. — [[User:Arthur Rubin|Arthur Rubin]] [[User talk:Arthur Rubin|(talk)]] 12:30, 31 May 2015 (UTC)
:I reverted the change, because the use of "exponential" there was not "wrongful" or equivalent to "a lot". The whole point of the best know quantum algorithms is that they provide an exponential speedup over the bets known (and, as conjectured, the best possible) classical algorithms. Here "exponential speedup" means that as a function of input size (in bits) the best classical algororithms take an exponentially growing number of steps, while the best quantum algorithms only need a polynomial number of steps. Shor's algorithm is the best know example, but there are many more, see [https://quantumalgorithmzoo.org/ Quantum Algorithm Zoo].--[[User:Qcomp|Qcomp]] ([[User talk:Qcomp|talk]]) 00:11, 3 November 2023 (UTC)
::Well in that case perhaps that needs to be clarified, because the way it is presently articulated is confusing and misleading (as one is prone to think that "exponential" is used in the popular, 'urban' sense mentioned before), so I would say that at the very least those parts of the article need to be re-articulated, and special expressions or special use tof, need to be clarified. - The whole point of encyclopedic articles is to explain the topic to non-experts; in other words that one don't have to already be an expert who knows all the inside esoteric phrases, to be able to read the article.
::- [[User:RP Nielsen|RP Nielsen]] ([[User talk:RP Nielsen|talk]]) 13:06, 3 November 2023 (UTC)
:::Its a pity that language has been so contaminated that we can no longer use well-defined terminology, but it's unfortunately true that "exponential" is often used in an almost meaningless way nowadays. I've added a footnote to the first use of "exponentially faster", to indicate that (and in which way) here we mean indeed "exponentially faster":
:::: Here and in the following „exponentially faster” has a precise [[computational complexity|complexity theoretical]] meaning regarding the potential [[quantum speedup]] enabled by quantum computers. Namely, that for certain problems the worst-case [[Computational complexity#Time|time complexity]] (number of elementary steps needed to solve the problem) of the [[quantum algorithm]] scales [[superpolynomial]]ly better than the best known classical algorithm. It thus implies the [[conjecture]] that the set of problems efficiently solvable on a quantum computer ([[BQP]]) is strictly larger than the set of problems efficiently solvable on a classical computer ([[BPP (complexity)|BPP]]). See, for example, Nielsen and Chuang, ''Quantum Computation and Quantum Information'', chapter on quantum computational complexity or {{cite web |url=https://arxiv.org/abs/2209.06930 |title=How Much Structure Is Needed for Huge Quantum Speedups? |author=Scott Aaronson |publisher=Edited transcript of a rapporteur talk delivered at the 28th Solvay Physics Conference in Brussels on May 21, 2022 |arxiv=2209.06930}}
:::[[User:Qcomp|Qcomp]] ([[User talk:Qcomp|talk]]) 14:46, 3 November 2023 (UTC)
::::Thank you. Though I wonder if the point could not have been made in a much simpler and clearer way, by a formulation ''along the lines of'' how you expressed it in your previous reply, when you said:
::::::Here "exponential speedup" means that as a function of input size (in bits) the best classical algororithms take an exponentially growing* number of steps, while the best quantum algorithms only need a polynomial number of steps.
::::::<small>*(and - as a sugestion- possibly with "exponentially growing" linking to the exponential growth article, just to make sure everyone is on board)</small>
::::Apart from being simpler and much more digestible, this formulation also shows directly where it is the link to exponential growth enters the picture. - Of course it doesn't give you the opportunity to flex the muscle of how much you know about it, but on the upside it's easy and straight foreward for anyone to see what it means.
::::- [[User:RP Nielsen|RP Nielsen]] ([[User talk:RP Nielsen|talk]]) 07:10, 4 November 2023 (UTC)
:::::I am glad that @[[User:Qcomp|Qcomp]] caught this issue quickly, but @[[User:RP Nielsen|RP Nielsen]] was not that far off in that the wording didn't make sense ''to non-experts''. I added a parenthetical remark to point out that "exponentially faster" is with respect to input size scaling. [[User:Qq8|Qq8]] ([[User talk:Qq8|talk]]) 10:31, 5 November 2023 (UTC)
::::::Thanks again. But I'm afraid the parenthesis doesn't really clarify much about the legitimacy of the expression. And @[[User:Qcomp|Qcomp]]'s footnote remains an unnecessarily extensive half-a-page of what, to the non-expert, appear to be more or less inconprehensible giberish. And I apologize in case if this my assessment might hit a sore nerve, but..
::::::Keep in mind that IT'S A FOOTNOTE, the whole, and sole, point of which was to avoid confusion with the popular catchphrase. - It doesn't have to go in depth with complexity theory, or account for implications (all that is better done the article itself rather than in the footnote). - It's ONLY purpose was to clarify that the expression "exponentially faster" is an inside term, and (in a reasonably conceivable way) explain to the non-expert(!) what is meant by it, so as to avoid confusion with the popular catchphrase.
::::::@[[User:Qcomp|Qcomp]] already did that excellently in his earlier reply to me, and so my suggestion was that THAT wording be used IN STEAD of the, as I said, unnecessarily extensive, and rather esoteric, half-a-page of insider giberish (I apologize again).
::::::Thus, I suggest, for example, the following wording in stead:
:::::::: Here and in the following „exponentially faster” has a precise complexity theoretical meaning. Namely, that as a function of input size (in bits) the best classical algororithms take an [[Exponential growth|exponentially growing]] number of steps, while the best quantum algorithms only increase by a [[polynomial]] number of steps.
::::::So I suggest this, or a similarly clear and to-the-point wording, to replace the footnote, althought I will abstain from making that edit myself, from fear of offening some if I did. So I'll leave that up to you guys. But that is how I would suggest the footnote be worded, in stead of what it is at present. But I leave it up to you guys to do that edit, if and in case you decide that what I have argued here makes any sense. [[User:RP Nielsen|RP Nielsen]] ([[User talk:RP Nielsen|talk]]) 19:19, 5 November 2023 (UTC)
:::::::On rereading the footnote I agree that it was unnecessary lengthy and detailed (an attempt to support that there's indeed an exponential speedup, and to be as precise as possible what speedup is claimed - I don't accept the qualification as "gibberish", though, especially since all technical terms were properly linked ;-), and I agree that most of that would rather belong in the [[Quantum_computing#Complexity|complexity]] section or the [[quantum speedup]] article and I removed it from the footnote. --[[User:Qcomp|Qcomp]] ([[User talk:Qcomp|talk]]) 22:03, 5 November 2023 (UTC)


Just a sidebar...it's quite common and legit for there to be a common meaning of a term which is different than it's technical meaning. The latter does not make the former illegitimate. <b style="color: #0000cc;">''North8000''</b> ([[User talk:North8000#top|talk]]) 14:27, 5 November 2023 (UTC)
== Three-bit Example? ==


:Even with the footnote, I still disagree with the expression "exponentially faster". I think it also is not neutral due to how ambiguous it is. By ambiguous, I mean that from a reader's perspective, I would have thought you are claiming that there is an exponential speedup for ALL problems. For some problems however, this is definitely not the case. [[User:Erdabravest|Erdabravest]] ([[User talk:Erdabravest|talk]]) 00:39, 6 March 2024 (UTC)
It would be very helpful to see an example of a calculation or problem solved at the three bit level. Is there such a thing? [[User:JFistere|JFistere]] ([[User talk:JFistere|talk]]) 03:11, 15 October 2015 (UTC)


== simplify intro! ==
== Quantum Computing Overview ==


Hey everyone,
The technical expertise in this article is very good, but way too technical at the intro. The intro should be a thesis statement especially for newbies. I'll back-read the terminology you used and see if I can glean enough to simplify the intro for you. No promises though!


Would it be helpful to place more emphasis on why one would use quantum computing from the get go rather than starting from a hardware perspective?
By the way, are the states referred to in the article the spin of the qbit?


The current beginning talks about the use of quantum computing in terms of quantum devices being operated but I would argue that the entire existence of quantum computing though is due to using quantum mechanics to better solve scalability problems that classical algorithms cannot manage.
I just found a good nuts 'n bolts explanation here...http://www.wired.com/2014/05/quantum-computing/-[[User:Pb8bije6a7b6a3w|Pb8bije6a7b6a3w]] ([[User talk:Pb8bije6a7b6a3w|talk]]) 18:57, 26 October 2015 (UTC)


From what I understand , if I were a reader, I would also risk "putting the word quantum in front of everything." Would it be fair to say this?
== misleading lede ==


I am not sure if people agree with me on this. Thoughts? [[User:Erdabravest|Erdabravest]] ([[User talk:Erdabravest|talk]]) 00:56, 6 March 2024 (UTC)
* "Given sufficient computational resources, however, a classical computer could be made to simulate any quantum algorithm, as quantum computation does not violate the Church–Turing thesis.[10]"


==Wiki Education assignment: Technology and Culture==
The whole article is currently very tech. Which is OK with me, even though I cannot understand it well enough to judge how correct it is... But it needs more content that is at a lower level. And it needs to be careful not to mislead readers who are not so tech. The above sentence currently concluding the lede is a prime example of content which is probably correct in theory but seriously misleading, particularly in the lede context. Most ordinary readers would not understand that "sufficient computational resources" includes unbounded quantities thereof, with no regard for feasibility. Yes, we may think quantum computers can only solve problems that a classical computer could solve if it was big enough and had enough time to solve. But there are many problems that would require using the entire universe to solve (organized as a classical computer) and still take longer than the expected life of the universe. If we think quantum computers will be able to solve some such problems (within feasible, limited, size and time constraints), we can fairly say there is a distinct difference in the problems these two classes of computers can solve, even if both classes of computers are only able to solve (all) Turing problems -- "given enough resources". I don't really know enough to know how the lede should be fixed -- but maybe I will Be Bold anyway, to get the ball rolling...-[[Special:Contributions/71.174.188.32|71.174.188.32]] ([[User talk:71.174.188.32|talk]]) 19:11, 10 December 2015 (UTC)
{{dashboard.wikiedu.org assignment | course = Wikipedia:Wiki_Ed/Purdue/Technology_and_Culture_(Fall) | assignments = [[User:Worma123|Worma123]], [[User:Mvallego|Mvallego]] | reviewers = [[User:Orahmel|Orahmel]] | start_date = 2024-08-19 | end_date = 2024-12-07 }}


<span class="wikied-assignment" style="font-size:85%;">— Assignment last updated by [[User:Orahmel|Orahmel]] ([[User talk:Orahmel|talk]]) 19:44, 27 November 2024 (UTC)</span>
== Do I have this right? ==


== Are speculation and plans encyclopedic? ==
I've been trying to ground myself in this subject in order to attempt a good thesis statement. The way I understand it, those qbits would explore all possibilities for a given expression - between two clock ticks of the quantum computer. Is that right? [[User:Pb8bije6a7b6a3w|Pb8bije6a7b6a3w]] ([[User talk:Pb8bije6a7b6a3w|talk]]) 00:28, 11 December 2015 (UTC)


@[[User:Aislo8858|Aislo8858]] has [https://en.wikipedia.org/enwiki/w/index.php?title=Quantum_computing&diff=prev&oldid=1251870090 added] content about a corporation with plans to do work on quantum computing. In my opinion these plans are "news" not "knowledge" and don't belong in an encyclopedia. [[User:Johnjbarton|Johnjbarton]] ([[User talk:Johnjbarton|talk]]) 15:34, 18 October 2024 (UTC)
==please add to article, large scale ancient quantum computer/ing==
the article is leaving out proven and implemented ancient use of quantum computing for 10s of 1000s of years a la stone henge
gobekli tepi where entanglement, superposition were long long used imprinting across the countryside life itself , any knowledge,
any creation, USING the universe wide quantum computer wedding black energy matter, as hologram screen to imprint all creation - [[Special:Contributions/24.44.215.132|24.44.215.132]] ([[User talk:24.44.215.132|talk]]) 06:03, 1 February 2016 (UTC)ka ma sa ba da

Latest revision as of 19:44, 27 November 2024

Former featured articleQuantum computing is a former featured article. Please see the links under Article milestones below for its original nomination page (for older articles, check the nomination archive) and why it was removed.
Article milestones
DateProcessResult
January 19, 2004Refreshing brilliant proseKept
May 9, 2006Featured article reviewKept
May 13, 2007Featured article reviewDemoted
Current status: Former featured article


Lead too long

[edit]

The lead on this article is too long. To be more readable to a wider audience, it should be shorter.

I caution anyone against putting a simple "lead too long" template on the article (Template:Lead too long), because it will show the message at the top of the article to all readers, whether or not they have the ability or desire to change the article. However, here on the talk page this message may be more signal and less noise. 96.227.223.203 (talk) 02:28, 31 August 2023 (UTC)[reply]

Expression "exponentially faster" etc makes no sense!

[edit]

I have corrected the wrongful use of the word "exponentially" in a couple of places where it was simply meant as an equivalent to "a lot". I am aware of this trend where "exponentially" has become a buzzword. But.. The word "exponential" is a well defined mathematical term (see article Exponential growth). Seeing expressions such as "expeonentially faster" etc in cheap tv-movies is one thing that one may shake one's head at and shrug. But, not least for reasons of clarity, I don't think this kind of buzzwording should occur in a technical Wikipedia article.

- RP Nielsen (talk) 13:02, 2 November 2023 (UTC)[reply]

I support your change as an improvement. But "exponentially" does have a legit common meaning as "a very lot" in addition to it's mathematical meaning. Sincerely, North8000 (talk) 14:26, 2 November 2023 (UTC)[reply]
I reverted the change, because the use of "exponential" there was not "wrongful" or equivalent to "a lot". The whole point of the best know quantum algorithms is that they provide an exponential speedup over the bets known (and, as conjectured, the best possible) classical algorithms. Here "exponential speedup" means that as a function of input size (in bits) the best classical algororithms take an exponentially growing number of steps, while the best quantum algorithms only need a polynomial number of steps. Shor's algorithm is the best know example, but there are many more, see Quantum Algorithm Zoo.--Qcomp (talk) 00:11, 3 November 2023 (UTC)[reply]
Well in that case perhaps that needs to be clarified, because the way it is presently articulated is confusing and misleading (as one is prone to think that "exponential" is used in the popular, 'urban' sense mentioned before), so I would say that at the very least those parts of the article need to be re-articulated, and special expressions or special use tof, need to be clarified. - The whole point of encyclopedic articles is to explain the topic to non-experts; in other words that one don't have to already be an expert who knows all the inside esoteric phrases, to be able to read the article.
- RP Nielsen (talk) 13:06, 3 November 2023 (UTC)[reply]
Its a pity that language has been so contaminated that we can no longer use well-defined terminology, but it's unfortunately true that "exponential" is often used in an almost meaningless way nowadays. I've added a footnote to the first use of "exponentially faster", to indicate that (and in which way) here we mean indeed "exponentially faster":
Here and in the following „exponentially faster” has a precise complexity theoretical meaning regarding the potential quantum speedup enabled by quantum computers. Namely, that for certain problems the worst-case time complexity (number of elementary steps needed to solve the problem) of the quantum algorithm scales superpolynomially better than the best known classical algorithm. It thus implies the conjecture that the set of problems efficiently solvable on a quantum computer (BQP) is strictly larger than the set of problems efficiently solvable on a classical computer (BPP). See, for example, Nielsen and Chuang, Quantum Computation and Quantum Information, chapter on quantum computational complexity or Scott Aaronson. "How Much Structure Is Needed for Huge Quantum Speedups?". Edited transcript of a rapporteur talk delivered at the 28th Solvay Physics Conference in Brussels on May 21, 2022. arXiv:2209.06930.
Qcomp (talk) 14:46, 3 November 2023 (UTC)[reply]
Thank you. Though I wonder if the point could not have been made in a much simpler and clearer way, by a formulation along the lines of how you expressed it in your previous reply, when you said:
Here "exponential speedup" means that as a function of input size (in bits) the best classical algororithms take an exponentially growing* number of steps, while the best quantum algorithms only need a polynomial number of steps.
*(and - as a sugestion- possibly with "exponentially growing" linking to the exponential growth article, just to make sure everyone is on board)
Apart from being simpler and much more digestible, this formulation also shows directly where it is the link to exponential growth enters the picture. - Of course it doesn't give you the opportunity to flex the muscle of how much you know about it, but on the upside it's easy and straight foreward for anyone to see what it means.
- RP Nielsen (talk) 07:10, 4 November 2023 (UTC)[reply]
I am glad that @Qcomp caught this issue quickly, but @RP Nielsen was not that far off in that the wording didn't make sense to non-experts. I added a parenthetical remark to point out that "exponentially faster" is with respect to input size scaling. Qq8 (talk) 10:31, 5 November 2023 (UTC)[reply]
Thanks again. But I'm afraid the parenthesis doesn't really clarify much about the legitimacy of the expression. And @Qcomp's footnote remains an unnecessarily extensive half-a-page of what, to the non-expert, appear to be more or less inconprehensible giberish. And I apologize in case if this my assessment might hit a sore nerve, but..
Keep in mind that IT'S A FOOTNOTE, the whole, and sole, point of which was to avoid confusion with the popular catchphrase. - It doesn't have to go in depth with complexity theory, or account for implications (all that is better done the article itself rather than in the footnote). - It's ONLY purpose was to clarify that the expression "exponentially faster" is an inside term, and (in a reasonably conceivable way) explain to the non-expert(!) what is meant by it, so as to avoid confusion with the popular catchphrase.
@Qcomp already did that excellently in his earlier reply to me, and so my suggestion was that THAT wording be used IN STEAD of the, as I said, unnecessarily extensive, and rather esoteric, half-a-page of insider giberish (I apologize again).
Thus, I suggest, for example, the following wording in stead:
Here and in the following „exponentially faster” has a precise complexity theoretical meaning. Namely, that as a function of input size (in bits) the best classical algororithms take an exponentially growing number of steps, while the best quantum algorithms only increase by a polynomial number of steps.
So I suggest this, or a similarly clear and to-the-point wording, to replace the footnote, althought I will abstain from making that edit myself, from fear of offening some if I did. So I'll leave that up to you guys. But that is how I would suggest the footnote be worded, in stead of what it is at present. But I leave it up to you guys to do that edit, if and in case you decide that what I have argued here makes any sense. RP Nielsen (talk) 19:19, 5 November 2023 (UTC)[reply]
On rereading the footnote I agree that it was unnecessary lengthy and detailed (an attempt to support that there's indeed an exponential speedup, and to be as precise as possible what speedup is claimed - I don't accept the qualification as "gibberish", though, especially since all technical terms were properly linked ;-), and I agree that most of that would rather belong in the complexity section or the quantum speedup article and I removed it from the footnote. --Qcomp (talk) 22:03, 5 November 2023 (UTC)[reply]

Just a sidebar...it's quite common and legit for there to be a common meaning of a term which is different than it's technical meaning. The latter does not make the former illegitimate. North8000 (talk) 14:27, 5 November 2023 (UTC)[reply]

Even with the footnote, I still disagree with the expression "exponentially faster". I think it also is not neutral due to how ambiguous it is. By ambiguous, I mean that from a reader's perspective, I would have thought you are claiming that there is an exponential speedup for ALL problems. For some problems however, this is definitely not the case. Erdabravest (talk) 00:39, 6 March 2024 (UTC)[reply]

Quantum Computing Overview

[edit]

Hey everyone,

Would it be helpful to place more emphasis on why one would use quantum computing from the get go rather than starting from a hardware perspective?

The current beginning talks about the use of quantum computing in terms of quantum devices being operated but I would argue that the entire existence of quantum computing though is due to using quantum mechanics to better solve scalability problems that classical algorithms cannot manage.

From what I understand , if I were a reader, I would also risk "putting the word quantum in front of everything." Would it be fair to say this?

I am not sure if people agree with me on this. Thoughts? Erdabravest (talk) 00:56, 6 March 2024 (UTC)[reply]

Wiki Education assignment: Technology and Culture

[edit]

This article is currently the subject of a Wiki Education Foundation-supported course assignment, between 19 August 2024 and 7 December 2024. Further details are available on the course page. Student editor(s): Worma123, Mvallego (article contribs). Peer reviewers: Orahmel.

— Assignment last updated by Orahmel (talk) 19:44, 27 November 2024 (UTC)[reply]

Are speculation and plans encyclopedic?

[edit]

@Aislo8858 has added content about a corporation with plans to do work on quantum computing. In my opinion these plans are "news" not "knowledge" and don't belong in an encyclopedia. Johnjbarton (talk) 15:34, 18 October 2024 (UTC)[reply]

Retrieved from "https://en.wikipedia.org/enwiki/w/index.php?title=Talk:Quantum_computing&oldid=1259912203"